Handbook of Pharmaceutical Controlled Release Technology

" well-classified... ...provide[s] informative reference sources. "-Pharmaceutical Research

Donald L. Wise

Polymers as Drug Delivery Carriers Hydrophilic Cellulose Derivatives as Drug Delivery Carriers: Influence of Substitution Type on the Properties of Compressed Matrix Tablets, Carmen Ferrero Rodriguez, Nathalie Bruneau, Jrme Barra, Dorothe Alfonso, and Eric Doelker Poly(Vinyl Alcohol) as a Drug Delivery Carrier, Surya K. Mallapragada and Shannon McCarthy-Schroeder Development of Acrylate and Methacrylate Polymer Networks for Controlled Release by Photopolymerization Technology, Robert Scott, Jennifer H. Ward, and Nicholas A. Peppas Smart Polymers for Controlled Drug Delivery, Joseph Kost and Smadar A. Lapidot Complexing Polymers in Drug Delivery, Anthony M. Lowman Polylactic and Polyglycolic Acids as Drug Delivery Carriers, Lisa Brannon-Peppas and Michel Vert Use of Infrared and Raman Spectroscopy for Characterization of Controlled Release Systems, A. B. Scranton, B. Drescher, E. W. Nelson, and J. L. Jacobs Accurate Models in Controlled Drug Delivery Systems, Balaji Narasimhan Mechanism-Based Classification of Controlled Release Devices Drug Release from Swelling-Controlled Systems, Paolo Colombo, Patrizia Santi, Ruggero Bettini,Christopher S. Brazel, and Nikolaos A. Peppas Superporous Hydrogels as a Platform for Oral Controlled Drug Delivery, Haesun Park, Jun Chen, and Kinam Park Osmotic Implantable Delivery Systems, Jeremy C. Wright, Felix Theeuwes, and Cynthia L. Stevenson Bioadhesive Controlled Release Systems, Nicholas A. Peppas, Monica D. Little, and Yanbin Huang Micro- and Nanoparticulate Release Systems Microencapsulation Technology: Interfacial Polymerization Method, A. Atla Hincal and H. Sheyla Kas Nanoparticulate Controlled Release Systems for Cancer Therapy, C. Dubernet, E. Fattal, and P. Couvreur Microencapsulation Using Coacervation/Phase Separation: An Overview of the Technique and Applications, H. Sheyla Kas and Levent ner Microsphere Preparation by Solvent Evaporation Method, A. Atla Hincal and Sema Calis Nanosuspensions-A Formulation Approach for Poorly Soluble and Poorly Bioavailable Drugs, R. H. Mller, B. H. L. Bohm, and M. J. Grau Large-Scale Production of Solid Lipid Nanoparticles (SLN) and Nanosuspensions (DissoCubes), R. H. Mller, S. Gohla, A. Dingler, and T. Schneppe Solid Lipid Nanoparticles (SLN) as a Carrier System for the Controlled Release of Drugs, R. H. Mller, A. Lippacher, and S. Gohla Stability of Encapsulated Substances in Poly(Lactide-co-Glycolide) Delivery Systems, Steven P. Schwendeman, Gaozhong Zhu, Anna Shenderova, and Wenle Jiang Development of Polysaccharides as Novel Drug Carrier Systems, C. Vauthier and P. Couvreur Classification of Controlled Release Devices According to Administration Site An Overview of Controlled Release Systems, S. Venkatraman, N. Davar, A. Chester, and L. Kleiner Research and Development Aspects of Oral Controlled-Release Dosage Forms, Yihong Qiu and Guohua Zhang A Gastrointestinal Retentive Microparticulate System to Improve Oral Drug Delivery, Y. Kawashima, H. Takeuchi, and H. Yamamoto In Vitro-In Vivo Correlations in the Development of Solid Oral Controlled Release Dosage Forms, Yihong Qiu, Emil E. Samara, and Guoliang Cao Gamma Scintigraphy in the Analysis of the Behavior of Controlled Release Systems, C. G. Wilson and N. Washington Electrically Assisted Transdermal Delivery of Drugs, Ajay K. Banga A Novel Method Based on Artificial Neural Networks for Optimizing Transdermal Drug Delivery Systems, Kozo Takayama and Tsuneji Nagai Transdermal Drug Delivery by Skin Electroporation, Tani Chen, Robert Langer, and James C. Weaver Enhancement of Transdermal Transport Using Ultrasound in Combination with Other Enhancers, Joseph Kost, Samir Mitragotri, and Robert Langer Electrotransport Systems for Transdermal Delivery: A Practical Implementation of Iontophoresis, Erik R. Scott, J. Bradley Phipps, J. Richard Gyory, and Rama V. Padmanabhan Peptide and Protein Release Systems Controlled Release Protein Therapeutics: Effects of Process and